1) the plating and rinsing wastewater
电镀退镀废水
2) electroplate wastewater
电镀废水
1.
Research on the treatment method of electroplate wastewatercontaining cyanogen and chromium compound;
含氰含铬电镀废水处理技术的研究
2.
Advanced treatment efficiency of electroplate wastewater by vertical-horizontal subsurface flow combined constructed wetland;
垂直流-水平潜流复合人工湿地深度处理电镀废水的效果
3.
The Analysis and Treatment of Electroplate Wastewater Containing Chromium and Nickel;
电镀废水镍、铬的分析及处理方法的研究
3) plating wastewater
电镀废水
1.
Nowadays,there are 4 billion cubic meters plating wastewater containing a lot of copper ions were released in China.
目前中国每年排放约40亿m3电镀废水,其中含有大量的铜离子,若不进行回收,不仅浪费资源,而且污染环境。
2.
In this article,the plating wastewater containing heavy metal ions was electrolyzed in a novel organic glass reactor which was first designed by the author.
采用自行设计的有机玻璃电解槽用电化学方法处理含重金属离子电镀废水,讨论了电极材料选择的重要性,及pH值、电极间距和电极联结方式对于去除效果的影响,确定了电解过程的最佳工艺条件。
3.
Membrane separation technology has wide application in electroplating wastewater treatment.
膜分离技术在电镀废水处理领域有着良好的应用前景。
4) plating waste water
电镀废水
1.
The sources of organic pollutant in plating waste water include three facts: pre-plating process, plating process and post-plating process.
电镀废水中的有机污染物来源主要有3个方面:镀前处理、电镀过程和镀后处理。
2.
Oxidize plating waste water by using hypochlorous acid sodium as well study its techical conditions and disposal effect.
采用次氯酸钠氧化处理含CN电镀废水,并对其主要工艺条件、处理效果等进行了试验研究。
3.
Na2S selected deposition was used in the separation of Cu2+and Ni2+ in plating waste water of given chemical plant.
用硫化钠选择沉淀法分离电镀废水中的Cu2+和N i2+离子,根据热力学理论阐述Cu2+和Ni2+分离的原理,确定分离的适宜条件。
5) electroplating wastewater
电镀废水
1.
Sorption properties of Cu in electroplating wastewater on municipal solid waste incinerator bottom ash;
垃圾焚烧炉渣对电镀废水中Cu的吸附特性
2.
Methods for treating strong chelate-containing wastewater Part Ⅱ—Chelation/precipitation process for the treatment of mixed electroplating wastewater;
强螯合物废水的处理方法 第二部分——螯合沉淀法处理混合电镀废水
6) electroplating waste water
电镀废水
1.
General situation and looking into the distance for the administrating of electroplating waste water in China;
我国电镀废水治理概况与展望
2.
Reverse flow-injection spectrophotometric determination of chromium(Ⅵ) in electroplating waste water and sludge;
反向流动注射分光光度法测定电镀废水和污泥中铬(Ⅵ)
3.
The electroplating waste water was treated with by a chemical method to remove al the heavy metal ion in form of hydroxide sedimentation.
化学法处理电镀废水时,其中的重金属离子形成氢氧化物沉淀,用硫酸浸出沉淀后会得到含有Cu2+、Ni2+和Fe3+的混合溶液,以之为实验研究对象,用氢氧化钠调控溶液的pH值,探求从中分离Fe3+的条件,实现溶液中Fe3+的有效分离;然后根据溶度积原理阐述从溶液中分离Fe3+的原理、确定分离的适宜条件;将理论分析与实验研究所确定的分离条件进行对比,基本上吻合,表明溶度积原理对电镀废水中重金属离子的分离有重要指导意义。
补充资料:退镀
分子式:
CAS号:
性质:从基体金属或底层上去除镀层的过程。要根据镀层的性质和厚度采用相应的方法,主要方法有机械磨除、化学或电化学溶解。
CAS号:
性质:从基体金属或底层上去除镀层的过程。要根据镀层的性质和厚度采用相应的方法,主要方法有机械磨除、化学或电化学溶解。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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